Impact of atmospheric pressure plasma treated seeds on germination, morphology, gene expression and biochemical responses

In recent years, cold atmospheric pressure plasma (CAP) applications in agriculture are rapidly increasing. This review covers the effect of CAP and plasma-treated liquid (PTL) on seeds. CAP treatment on seed alters the germination percentage, morphology (shoot height, root length, surface area, etc...

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Veröffentlicht in:	Japanese Journal of Applied Physics 2021-04, Vol.60 (4), p.40502
Hauptverfasser:	Attri, Pankaj, Koga, Kazunori, Okumura, Takamasa, Shiratani, Masaharu
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural land Amino acids Antioxidants Atmospheric pressure Chlorophyll Gene expression Germination Hormones Morphology Plasma Seeds Water absorption
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creator	Attri, Pankaj Koga, Kazunori Okumura, Takamasa Shiratani, Masaharu
description	In recent years, cold atmospheric pressure plasma (CAP) applications in agriculture are rapidly increasing. This review covers the effect of CAP and plasma-treated liquid (PTL) on seeds. CAP treatment on seed alters the germination percentage, morphology (shoot height, root length, surface area, etc.), gene expression, and biochemical responses (changes in hormones, antioxidants, amino acids, total soluble sugar content, chlorophyll content, etc.). The changes were incorporated in yield-related parameters (fresh and dry weight of seedlings) and water absorption capacity after plasma treatment. Lastly, we discussed the current status of CAP and PTL use in agricultural land.
doi_str_mv	10.35848/1347-4065/abe47d
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subjects	Agricultural land Amino acids Antioxidants Atmospheric pressure Chlorophyll Gene expression Germination Hormones Morphology Plasma Seeds Water absorption
title	Impact of atmospheric pressure plasma treated seeds on germination, morphology, gene expression and biochemical responses
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